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Tensile Properties and Fusion Zone Hardening for GMAW and MIEA Welds of a 7075-T651 Aluminum Alloy 被引量:4
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作者 N.Alatorre R.R.Ambriz +3 位作者 B.Noureddine A.Amrouche A.Talha D.Jaramillo 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2014年第4期694-704,共11页
Tensile and hardness values for 7075-T651 aluminum alloy in the as welded and post weld heat treated conditions(solubilization and artificial aging-T6),obtained using GMAW and modified indirect electric arc(MIEA)w... Tensile and hardness values for 7075-T651 aluminum alloy in the as welded and post weld heat treated conditions(solubilization and artificial aging-T6),obtained using GMAW and modified indirect electric arc(MIEA)welding processes are presented.Results showed that the base material along rolling direction exhibited a tensile strength of around 600 MPa and elongation of 11%.For the as welded condition,tensile strength was 260 MPa and elongation percent of 3%.This behavior was attributed to brittleness induced by the microstructural characteristics of the welded alloys,as well as high porosity.Hardness profiles along the welds were obtained and different welded zones were identified.A soft zone(*100 HV0.1) in the heat affected zone for GMAW and MIEA was observed,the minimum hardness corresponding to weld metal(*85 and *96 HV0.1for GMAW and MIEA,respectively).The high dilution between filler and base metal during welding in MIEA allows to the Zn and Cu to flow from the base metal into the weld metal,inducing hardening by solution and subsequent artificial aging.In this regard,the hardness of the weld metal for MIEA increases by 56%,while the tensile strength reaches a value close to 400 MPa.For GMAW,non-favorable hardening effect was observed for the weld metal after solution and artificial aging. 展开更多
关键词 Welding 7075-T651 Dilution fraction tensile properties Fusion zone hardening
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Prediction and Experimental Validation of Forming Limit Curve of a Quenched and Partitioned Steel 被引量:1
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作者 Xue-li GAO Jun-ying MIN +3 位作者 Ling ZHANG Quan-chao LI Chang-wei LIAN Jian-ping LIN 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2016年第6期580-585,共6页
Forming limit curve(FLC)is an effective tool to evaluate the formability of sheet metals.An accurate FLC prediction for a sheet metal is beneficial to its engineering application.A quenched and partitioned steel,kno... Forming limit curve(FLC)is an effective tool to evaluate the formability of sheet metals.An accurate FLC prediction for a sheet metal is beneficial to its engineering application.A quenched and partitioned steel,known as QP980,is one of the 3rd generation advanced high strength steels and is composed of martensite,ferrite and a considerable amount of retained austenite(RA).Martensite transformation from RA induced by deformation,namely,transformation induced plasticity(TRIP),promotes the capability of work hardening and consequently formability.Nakazima tests were carried out to obtain the experimental forming limit strains with the aid of digital image correlation techniques.Scanning electron microscopy(SEM)was employed to examine the fracture morphologies of Nakazima specimens of the QP980 steel.The observed dimple pattern indicated that tensile stress was the predominant factor which led to failure of QP980 specimens.Therefore,maximum tensile stress criterion(MTSC)was adopted as the forming limit criterion.To predict the FLC of QP980 steel,Von-Mises yield criterion and power hardening law were adopted according to the tested mechanical properties of QP980 steel.Results were compared with those derived from other three representative instability theories,e.g.Hill criterion,Storen-Rice vertex theory and Bressan-Williams model,which shows that the MTSC based FLC is in better agreement with the experimental results. 展开更多
关键词 criterion tensile martensite hardening plasticity TRIP austenite steels ferrite quenched
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